Theoretical and operational investigation of the temperature of the glass surface, floor and effluent inside the solar desalination pond

HaghParast, Khadejeh; Zamanpour, Alison; Farahbod, Farshad

doi:10.1016/j.csite.2023.103597

Case Studies in Thermal Engineering

2023

DOI: 10.1016/j.csite.2023.103597

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Theoretical and operational investigation of the temperature of the glass surface, floor and effluent inside the solar desalination pond

Khadejeh HaghParast,

Alison Zamanpour,

Farshad Farahbod

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2024

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Cited by 2 publications

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Performance evaluation of a bifacial floating standalone photovoltaic system with different water bodies: An experimental investigation of 10E analysis

Pandian,

Balachandran,

David

et al. 2024

Env Prog and Sustain Energy

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This study delves into harnessing solar energy potential through innovative floating bifacial solar power generation systems. Employing a comprehensive 10E analysis—encompassing Energy, Exergy, Economic, Environmental, Energo‐economic, Exergo‐economic, Enviro‐economic, Energo‐environmental, Exergo‐environmental, Energy Payback Time, and Embodied Energy factors—the research evaluates energy performance, economic viability, and environmental impact. Among coolants, fresh water exhibited optimal performance, with peak output power (399 W), final yield (371.9351 W), and performance ratio (59.08173655). Capacity utilization factors were comparable (~0.516), with fresh water (0.5165764992) and black water (0.5154933033) excelling. Fresh water also minimized energy loss (−365.639816266105). Exergy efficiency peaked with fresh water (32.10%). Energo‐economic Analysis indicated lower LCOE (3.39 $/MWh) and higher enviro‐economic parameter (243.4965981) for Fresh Water. Exergo‐environmental Analysis showed consistent efficiency across conditions (exergy performance time [EPT]: 37.28410450–37.35602872). The Embodied Energy for panels was 2840.67 kWh/kg. Freshwater emerges as the frontrunner, offering high energy efficiency, minimized energy loss, and environmental sustainability. Embracing freshwater coolant opens avenues for inventive and environmentally conscious solar energy solutions in buoyant applications.

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Performance evaluation of a bifacial floating standalone photovoltaic system with different water bodies: An experimental investigation of 10E analysis

Pandian,

Balachandran,

David

et al. 2024

Env Prog and Sustain Energy

View full text Add to dashboard Cite

show abstract

Thermodynamic and experimental analysis of a solar concentration unit for freshwater production

Saatchi,

Farahbod,

Alizadeh

2024

J Therm Anal Calorim

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Theoretical and operational investigation of the temperature of the glass surface, floor and effluent inside the solar desalination pond

Cited by 2 publications

References 9 publications

Performance evaluation of a bifacial floating standalone photovoltaic system with different water bodies: An experimental investigation of 10E analysis

Performance evaluation of a bifacial floating standalone photovoltaic system with different water bodies: An experimental investigation of 10E analysis

Thermodynamic and experimental analysis of a solar concentration unit for freshwater production

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